Manganese-mediated potentiation of antitumor immune responses by enhancing KLRG1+ Macrophage function

Abstract

Manganese (Mn) play a crucial role in various biological processes in the body. Studies have primarily focused on their ability to enhance immune cell function and activation against tumors, particularly in dendritic cells (DCs), macrophages, and T cells. Tumor-associated macrophages (TAMs) are often the most abundant immune cell population present in the tumor microenvironment (TME). Thus, it would be valuable to investigate the mechanism by which Mn2+ regulates TAMs’ involvement in anti-tumor immunity, as it be crucial for advancing our understanding of cancer biology and developing new treatments for cancer. Here, in the present study we discovered that Mn2+ treatment led to a significant increase in KLRG1+ macrophages (KLRG1+ Mφ) in tumor tissues, and most of these cells exhibited an M1 phenotype. Knocking down KLRG1 in macrophages not only impaired their ability to induce downstream anti-tumor immunity of adaptive immune cells, but also impaired their direct cytotoxicity against tumor cells. Moreover, the changes in the polarization phenotype of KLRG1+ macrophages further lead to T cell proliferation and the polarization of CD4+ T cells towards a Th1 phenotype, thereby establishing a foundation for the antitumor immune response. Our study expands the understanding of the anti-tumor mechanism of Mn2+ and demonstrates, for the first time, that Mn2+ can regulate the function of KLRG1+ Mφ to participate in anti-tumor activities. These findings suggest that KLRG1 may represent a promising target for developing new tumor therapy.